Arsenite oxidation and arsenate respiration by a new Thermus isolate.
about
Sequence of the hyperplastic genome of the naturally competent Thermus scotoductus SA-01Microbial transformations of arsenic: perspectives for biological removal of arsenic from waterEcophysiology of "Halarsenatibacter silvermanii" strain SLAS-1T, gen. nov., sp. nov., a facultative chemoautotrophic arsenate respirer from salt-saturated Searles Lake, California.A Na+:H+ antiporter and a molybdate transporter are essential for arsenite oxidation in Agrobacterium tumefaciensComprehensive analysis of prokaryotes in environmental water using DNA microarray analysis and whole genome amplification.Identification of an aox system that requires cytochrome c in the highly arsenic-resistant bacterium Ochrobactrum tritici SCII24The ars detoxification system is advantageous but not required for As(V) respiration by the genetically tractable Shewanella species strain ANA-3.Exploiting the genetic and biochemical capacities of bacteria for the remediation of heavy metal pollution.Determination of arsenic species: a critical review of methods and applications, 2000-2003.Involvement of RpoN in regulating bacterial arsenite oxidation.Molybdenum-containing arsenite oxidase of the chemolithoautotrophic arsenite oxidizer NT-26High-quality draft genome sequence of the Thermus amyloliquefaciens type strain YIM 77409(T) with an incomplete denitrification pathway.Diversity of arsenite oxidase gene and arsenotrophic bacteria in arsenic affected Bangladesh soils.Microbial communities and arsenic biogeochemistry at the outflow of an alkaline sulfide-rich hot springArsenite-oxidizing Hydrogenobaculum strain isolated from an acid-sulfate-chloride geothermal spring in Yellowstone National Park.Biotransformation of arsenic by a Yellowstone thermoacidophilic eukaryotic alga.Arsenic-transforming microbes and their role in biomining processes.Functional genes and thermophilic microorganisms responsible for arsenite oxidation from the shallow sediment of an untraversed hot spring outlet.Characterization of arsenite-oxidizing bacteria isolated from arsenic-contaminated groundwater of West Bengal.Stratified Bacterial Diversity along Physico-chemical Gradients in High-Altitude Modern Stromatolites.Arsenic bioremediation potential of a new arsenite-oxidizing bacterium Stenotrophomonas sp. MM-7 isolated from soil.Identification of a possible respiratory arsenate reductase in Denitrovibrio acetiphilus, a member of the phylum Deferribacteres.Investigation of Arsenotrophic Microbiome in Arsenic-Affected Bangladesh Groundwater.The Arsenite Oxidation Potential of Native Microbial Communities from Arsenic-Rich Freshwaters.Isolation and characterization of yeasts associated with plants growing in heavy-metal- and arsenic-contaminated soils.Phylogenetic Structure and Metabolic Properties of Microbial Communities in Arsenic-Rich Waters of Geothermal Origin.New clusters of arsenite oxidase and unusual bacterial groups in enrichments from arsenic-contaminated soil.Detection, diversity and expression of aerobic bacterial arsenite oxidase genes.Bioremediation of Arsenic-Contaminated Water: Recent Advances and Future Prospects
P2860
Q21267170-F2C07D2E-23D1-4887-88C7-342626AC3B7DQ27011783-0944FE8A-40CD-4CAD-B26C-9404DAE73ED7Q33409353-1038B339-4390-4852-89EE-913FBB74C816Q34353843-04A0D6BC-169F-480D-BBBC-6D8570C58692Q34533533-7A5A40CC-FCD4-4A20-9B9A-DC2826906A7CQ34986712-5B0071F8-45BF-48AA-AF00-17A2ADB9C2A6Q34987247-E63369BA-9BF7-49A1-A19A-2AC281D27242Q34987448-509F3BC3-2CAD-4D23-875A-12547218949CQ35759588-7977E5A1-5200-4D9E-BCC1-9FAED0F8AF16Q36120319-C3E7B858-4A94-4E21-9D3F-28184948A1EFQ36574983-CD71C92D-B741-4E60-9FEA-CE2EDCA21C30Q36625677-4835C411-BDF8-4845-BE13-7D1823B86880Q36689860-9D9DE86C-B1A4-4733-9FFB-86CB5C4E80BEQ36850525-A0DDCECB-3E39-4BF3-8A9B-7A518BF5ED16Q36930146-BCCE02C2-F4F2-4D9F-A35D-9759CE9FF902Q37146959-6BE68BE0-1733-40AE-8350-E65DA3E7DBB7Q38072664-7F9BE053-B4F2-4AE9-A98C-0D8A76C620E6Q38934359-4933C03E-AD1D-4FEE-ACC0-AFEFFE4E2891Q39142907-83D4748F-38EE-45D6-AF86-2ED908521447Q41931433-C3625592-9763-41D9-8288-444FF3F621F0Q43411174-71DE1CBC-7A53-489B-89EB-D1D29EEF73C6Q44844097-EE3DE205-57CA-4362-BD49-1A365574D494Q46381634-B89FDA6E-A1A8-4883-A016-CEE152117F42Q46561773-4DC939EC-E581-482F-BDE9-79A4FB1938E9Q46586304-9D9F783D-12D1-427C-9932-A9C78FE6A6DBQ47173929-1BEE2AD7-8508-4D62-A67C-8164AAE921F0Q48052034-5EA9D9CD-558A-483C-B666-420218931AA1Q48080930-2AFD1764-C304-47CD-8D96-9BA6AF9176B3Q56037936-48537C53-559F-4CE4-9010-EB64FEA7573A
P2860
Arsenite oxidation and arsenate respiration by a new Thermus isolate.
description
2001 nî lūn-bûn
@nan
2001年の論文
@ja
2001年学术文章
@wuu
2001年学术文章
@zh
2001年学术文章
@zh-cn
2001年学术文章
@zh-hans
2001年学术文章
@zh-my
2001年学术文章
@zh-sg
2001年學術文章
@yue
2001年學術文章
@zh-hant
name
Arsenite oxidation and arsenate respiration by a new Thermus isolate.
@en
Arsenite oxidation and arsenate respiration by a new Thermus isolate.
@nl
type
label
Arsenite oxidation and arsenate respiration by a new Thermus isolate.
@en
Arsenite oxidation and arsenate respiration by a new Thermus isolate.
@nl
prefLabel
Arsenite oxidation and arsenate respiration by a new Thermus isolate.
@en
Arsenite oxidation and arsenate respiration by a new Thermus isolate.
@nl
P1476
Arsenite oxidation and arsenate respiration by a new Thermus isolate.
@en
P2093
Banfield JF
Gihring TM
P304
P356
10.1111/J.1574-6968.2001.TB10907.X
P577
2001-11-01T00:00:00Z